A ball is tossed straight up from the surface of a small spherical asteroid with no atmosphere.

Answer:

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Explanation:

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Two alligator cables, plugged into the COM (common) and  V(volts) ports.

The electric potential difference, also known as voltage, is measured using a device called a multimeter. To measure the voltage, you need to connect the multimeter to the circuit you want to measure. You do this by using two test leads or cables, one of which is plugged into the COM (common) port of the multimeter and the other into the V (volts) port.

The alligator cables are typically used for connecting to the circuit you want to measure, as they have clamp-like jaws that make it easy to attach to the circuit's wires. The other end of each alligator cable is plugged into the COM and V ports of the multimeter, respectively.

Once connected, the multimeter will display the voltage between the two points in the circuit that the alligator cables are connected to. It's important to note that the multimeter should be set to the correct voltage range, as measuring a voltage that is too high for the range of the multimeter can damage the device.

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The most precise pipettor cannot be determined solely based on tables, as precision is determined by multiple parameters and depends on the specific experiment being performed.

To determine the most precise pipettor, one would need to look at the average, standard deviation, and coefficient of variation of the results obtained with each pipettor, as well as any systematic biases that might have affected the results.

Precision is a measure of the reproducibility or repeatability of a measurement, and is an important characteristic of laboratory equipment such as pipettors.

To determine the most precise pipettor, multiple parameters need to be considered, including the average, standard deviation, and coefficient of variation of the results obtained with each pipettor, as well as any systematic biases that might have affected the results.

The average is the mean or average value of the results obtained with each pipettor. The standard deviation is a measure of the variability or spread of the results, and is calculated as the square root of the variance. The coefficient of variation is a measure of the relative variability of the results and is calculated as the standard deviation divided by the mean.

The pipettor with the smallest standard deviation or coefficient of variation would be considered the most precise, as this would indicate that the results obtained with that pipettor are the most consistent and reproducible.

However, it is also important to consider any systematic biases that might have affected the results. For example, if one pipettor consistently gives results that are lower than expected, it may be considered less precise even if its standard deviation is smaller.

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The acceleration of the cart is 3.71m/s².

Acceleration refers to the rate of change of the velocity of an object with respect to time. It is measured in m/s².

The acceleration of a body can be calculated by dividing the force by the mass as follows:

Acceleration = Force ÷ mass

According to this question, a 16.0 kg cart is being pulled by a 95.4 N force to the right, and a 36.0 N force to the left.

The net force = 95.4N - 36.0N = 59.4N

Acceleration = 59.4N ÷ 16kg = 3.71m/s²

Therefore, 3.71m/s² is the acceleration of the cart.

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Answer:

The dynamic viscosity of the liquid in SI units is 2.79e-2 Pa.s.

Dynamic viscosity can be calculated from the kinematic viscosity and the specific gravity of the liquid as follows:

Dynamic viscosity (μ) = Kinematic viscosity (ν) * Density (ρ)

Given:

Kinematic viscosity (ν) = 3.5e-4 m2/s

Specific gravity (SG) = 0.79

Density (ρ) = SG * Density of water (1000 kg/m3)

Therefore,

ρ = 0.79 * 1000 kg/m3 = 790 kg/m3

And,

Dynamic viscosity (μ) = ν * ρ

= 3.5e-4 m2/s * 790 kg/m3

= 2.79e-2 Pa.s

So, the dynamic viscosity of the liquid in SI units is 2.79e-2 Pa.s.

Dynamic viscosity is a property of a fluid that measures its resistance to flow. It is a measure of the internal friction of a fluid and is related to the fluid's ability to transfer momentum from one point to another. The dynamic viscosity of a fluid is determined by several factors, including its temperature, pressure, and composition. In SI units, dynamic viscosity is usually expressed in Pascal-seconds (Pa.s), also known as the Poise. Dynamic viscosity is an important property in many engineering applications, such as the design of piping systems, the selection of pumps and valves, and the calculation of heat transfer rates in fluid-based systems.

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Option B and D are valid because tension equals weight of 2 kg mass, which is 19.6 N force.

Tension is defined in physics as the pulling force transferred axially by a string, rope, chain, or similar item, or by each end of a rod, truss member, or similar three-dimensional object; tension may alternatively be defined as the action-reaction pair of forces operating at each end of those elements. Tension is described as the force transferred through a rope, string, or wire when it is pulled by opposing forces. The tension force is directed along the wire's length, pulling energy evenly on the bodies at the ends. Every physical item that comes into contact with another puts some force on it.

Here,

Option B and D is correct that is tension is equal to weight of 2 kg mass that is 19.6 N force.

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The speed of the runner at the end of the race will depend on the distance of the race, the time it took the runner to complete the race, and the runner's level of fitness.

The speed of the runner at the end of the race will depend on how fast they ran during the race. If the runner was running at a constant speed, then their speed at the end of the race will be the same as their speed at the beginning.The first three seconds of a race see a runner's pace gradually increase.As was previously said, an individual's talent level and the quantity of training they have received throughout time will have a significant impact on their average running pace. The average running speed of a person who is in pretty good form, however, often varies from 10 to 15 miles per hour, or around 16 to 24 kilometres per hour.

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Complete question:What is the speed of the runner at the end of the race?

The predicted force of tension is the net centripetal force applied to the ball since the student failed to take into account the downward force caused by gravity at the ball's lowest point along its circular route.

Define the tension's force.

The force communicated through a rope, string, or wire when two opposing forces draw on it is known as tension. The tension force pulls energy equally on the bodies at the ends and is applied along the entire length of the wire.

Tensile force, which consists of tensile stress and tensile strain, is the stretching force exerted on the material. This indicates that the material under stress and the forces attempting to stretch it are under tension.

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The bones are 6751 years old.

We know that time of a reaction is given by:

                                              kt = ln(A'/A)

where,

k = reaction constant = 0.0001216

A' = initial concentration

A = final concentration = 44% A = 0.44A

Putting these values in above equation we get:

t = ln(1/0.44)/ 0.0001216

 = 6751 years

So, the bones are 6751 years old.

All radioactive reactions are first order reaction.

A first-order reaction is one in which the rate of reaction is proportional to the concentration of the reactant. To put it another way, doubling the concentration doubles the reaction rate. A first-order reaction can have one or two reactants, as in the case of the decomposition reaction.

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The phenomenon of "beats" occurs when two guitarists try to play the same note, but one is just a little out of tune.

Two waves collide and produce a variable amplitude, which is a beat.

The difference in frequency between the two notes is equal to the amount of beats per second.

The difference in wavelength in this situation equals the difference in frequency, therefore

The number of beats per second is (6.48 cm - 6.53 cm) / (wavelength).

A single strike on an object, like a drum, or the movement of an object, like your heart; the sound that this produces.

A sequence of repeated strikes on an object, such as a drum, or repeated movements of an object; the sound produced by these repetitions.

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The Sun is about the size of an orange, so the Earth would be about the size of a grape compared to it. This is because the Earth is much smaller than the Sun.

The Sun is about the size of an orange, so the Earth would be about the size of a grape compared to it. This is because the Earth is much smaller than the Sun, with a diameter of around 7,917 miles, while the Sun has a diameter of around 864,000 miles. To put this into perspective, the Earth would be a tiny speck of dust compared to the size of the orange Sun. Thus, the Earth would be about the size of a grape if the Sun was a typically sized orange.

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The gold medal winner in Olympic downhill skiing perceives the length of the course to be 4.1 km, compared to the measurement of 3 km made by the organizers.

The length of an object as perceived by an observer moving at a significant fraction of the speed of light (such as 0.87c) is affected by relativistic length contraction. According to the theory of special relativity, the length of an object measured by a stationary observer and by an observer moving at a significant fraction of the speed of light will differ. The length of the object as perceived by the moving observer is given by the Lorentz factor:

L = L0 / √(1 - v^2 / c^2)

where:

   L is the length of the object as perceived by the moving observer

   L0 is the length of the object as measured by a stationary observer

   v is the velocity of the moving observer (0.87c)

   c is the speed of light (3 x 10^8 m/s)

Plugging in the values:

L = 3 km / √(1 - (0.87c)^2 / c^2) = 3 km / √(1 - 0.7569) ≈ 4.1 km is the perceived length.

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A self-contained breathing apparatus (SCBA) gauge should be checked regularly to determine how much air is left in the cylinder. It is generally recommended to check the gauge at least every 15-30 minutes during use to ensure that you have enough air to complete your task safely.

In emergency situations or high-stress environments, it may be necessary to check the gauge more frequently to ensure that you have a sufficient air supply. It is also important to periodically check the gauge during periods of heavy physical activity, as this can increase your breathing rate and reduce the amount of air in the cylinder more quickly. In general, it is a good practice to check your SCBA gauge often and to make sure that you have enough air to complete your task safely before entering a hazardous environment. If the air supply begins to run low, you should immediately exit the hazardous area and replace the cylinder.

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Sally would throw the wrench in the opposite direction from the space shuttle to return to the space shuttle.

How do space shuttles change direction in space?

Spacecraft are usually equipped with a reaction control system (RCS). These are typically located in specific locations around the spacecraft's exterior to allow its orientation to be changed.

What keeps the space shuttle from burning up when returning to Earth?

Thus, the shuttle needs a layer of insulation. The shuttle enters or "attacks" the atmosphere at such an angle that its nose and underside contact and compresses the air and absorb most of the heat generated. On the underside are incredibly heat-resistant, insulating silica tiles.

How does the space shuttle return to Earth?

When the astronauts want to return to Earth they turn on the engines, to push their spacecraft out of orbit. Gravity then pulls the spacecraft back towards the Earth. The spacecraft may be slowed to a safe landing speed by parachutes.

Thus, sally would throw the wrench in the opposite direction from the space shuttle to return to the space shuttle.

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laser doppler flowmetry uses an infrared laser to measure blood flow velocity. compared to ultrasound, the percent change in frequency using this technique is a)smaller.

What is laser Doppler flowmetry?

Laser Doppler flowmetry (LDF) is a non-invasive method for the continuous measurement of microvascular blood perfusion in a variety of tissue types. Blood perfusion (blood flow) is estimated by illuminating a tissue sample with single-frequency light and processing the frequency distribution of the backscattered light.

What is the principle of Doppler flow meter?

A Doppler ultrasonic flow meter uses a transducer to emit an ultrasonic beam into the stream flowing through the pipe. For the flow meter to operate, there must be particulates, such as solid particles or air bubbles, in the stream to reflect the ultrasonic beam.

What wavelength is laser Doppler flowmetry?

In normal skin, and with laser Doppler instruments with a probe with standard fiber separation (0.25 mm) and 780 nm wavelength, the measuring depth is 0.5–1 mm and the measurement volume is approximately 1 mm3.

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Earth's mean distance from the Sun is 1.495x108 kilometres, and its orbital period is 365 days. In 365.256 days (1 sidereal year), the Earth completes one orbit, covering 940 million kilometres (584 million mi).

One rotation of the Earth takes 24 hours, while that of Mars takes 25. The gas giants spin quite quickly. Jupiter's revolution takes only 10 hours to complete. Neptune takes 16 hours, Saturn 11 hours, and Uranus 17 hours. The length of time it takes an astronomical object to complete one orbit around another object is known as the orbital period (also known as the revolution period). In astronomy, it typically refers to bodies like planets or asteroids revolving about the Sun, as well as moons circling other stars, exoplanets, and double stars.

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6 feet deep is a fathom .

What is fathom ?

A fathom is a unit of length that is used primarily to measure the depth of water in nautical and maritime applications. It is equivalent to 6 feet (1.83 meters) and is used to describe the depth of water in terms of the distance from the surface of the water to the ocean floor.

The word "fathom" comes from the Old English word "fæðm," which means "the outstretched arms." The term was used to describe the length of a human outstretched arms, which was approximately 6 feet.

In nautical and maritime applications, fathoms are used to measure the depth of water in harbors, shipping lanes, and other areas where ships and boats operate. This information is important for navigation, as it helps sailors and mariners to avoid shallow waters and potential hazards.

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For a piston containing a sample of ideal gas  the signs for work done (W) on the gas, the heat energy (Q) transferred to the gas, and the change in the internal energy (Eth) for the given actions are A) 0, +, + B) +, -, 0 C) 0, -, - and D) -, 0, -.

An ideal gas refers to a theoretical gas which is composed of many randomly moving point particles not subject to interparticle interactions. When the gas is compressed, the work done is greater than zero and energy is transferred from the environment to the gas. When the gas expands, work done is less than zero and energy is transferred from the gas to the environment. There is no work done if the volume does not change.

When heat energy flows into the gas, it is positive heat transfer and when heat energy flows out of the gas, it is negative heat transfer. According to the first law of thermodynamics, the change in internal energy of a gas is equal to the heat added to the gas minus the work done by the gas i.e., Eth = W + Q. Hence, signs of work done, and heat transfer will determine the sign of internal energy.

Part A: Action: Lock the piston head in place. Hold the piston above a very hot flame.

As the piston is held in place, there is no volume change as work done is zero. As piston is held over a very hot flame, the heat energy is provided to the gas sample, Q is positive. Based on the equation E will be positive.

The signs of W, Q, and E are 0, +, +.

Part B: Action: Very slowly push the piston head down. Keep the piston in constant thermal equilibrium with a large water bath.

As the piston is pushed slowly, the gas is compressed, and work done is positive and piston is in constant thermal equilibrium with a large water bath, the temperature will decrease, hence the heat transfer will be negative. Based on the equation E will be zero.

The signs of W, Q, and E are +, -, 0.

Part C: Action: Lock the piston head in place. Plunge the piston into very cold water.

As the piston is held in place, there will be no change in volume, hence no work is done. As the piston is plunged in very cold water, the temperature will decrease, hence the heat transfer will be negative. Based on the equation E will be negative.

The signs of W, Q, and E are 0, -, -.

Part D: Action: Wrap the piston in insulation. Pull the piston head up.

As the piston will be pulled, the gas will expand and hence the work done is negative. As the piston is insulated, there will be no transfer of heat, hence it will be zero. Based on the equation E will be negative.

The signs of W, Q, and E are -, 0, -.

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The smoke is drawn to and out of the drivers window because the car is in the motion.

In physics, motion is a function of a body's position or orientation over time. Translation is defined as movement along a line or a curve. Rotation is a motion that modifies a body's orientation. In all scenarios, the acceleration and directed speed of every point on the body are equal (time rate of change of velocity). Motion that involves both translation and rotation is the most generic type. Every movement has a frame of reference to which it is relative. A body is not in motion when it is said to be at rest; rather, it is being characterized in relation to a frame of reference that is moving with the body.

When the car is in the motion, the air outside the car is moving with velocity relative to that of car.The motion of the car is creating a pressure imbalance with the outside air.The air moving around the car has less pressure than the air inside the car, so a vacuum is created when you open a window, drawing the air out.

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The distance traveled by the bicycle in one rotation of the wheel is approximately 78.5 inches.

It is defined as the product of the diameter of the circle (the distance across the circle through its center) and π (pi), a mathematical constant approximately equal to 3.14. The formula for the circumference of a circle is:

C = 2πr

where r is the radius of the circle, which is half the length of the diameter.

The concept of circumference is used in many areas of mathematics and science, such as geometry, trigonometry, physics, and engineering. For example, in physics, the circumference of a wheel is used to calculate its rolling distance and the circumference of a pulley can be used to determine its mechanical advantage. In engineering, the circumference of a pipe or a cylinder is used in fluid mechanics to calculate the flow of liquids and gases.

The distance traveled by a bicycle in one rotation of the wheel can be calculated using the circumference of the wheel. The circumference of a circle is given by the formula:

C = 2πr

where C is the circumference, π is approximately equal to 3.14, and r is the radius of the circle. In this case, the radius of the wheel is equal to half the diameter, so:

r = 25 in / 2 = 12.5 in

Substituting this value into the formula for the circumference gives:

C = 2π * 12.5 in = 25π in

So, the distance traveled by the bicycle in one rotation of the wheel is approximately equal to 25π inches. To the nearest tenth of an inch, this distance is:

25π ≈ 78.5 in

So, the distance traveled by the bicycle in one rotation of the wheel is approximately 78.5 inches.

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Answer:pv cells using electricity

Explanation:

The sunlight is the energy source causes the solar panel to generate electrical energy.

What is energy?

The definition of energy is "capacity to do work, which is ability to apply force causing displacement of an object." Energy is just the force that moves objects, despite this definition's seeming complexity.

What is electrical energy ?

A charged particle's ability to start an action or move an item is known as electrical energy. Electrical energy is produced as a result of electrons moving between atoms. Electrical energy is used to operate appliances like toasters and phone chargers every time you put them into a wall socket.

Sunlight energy is captured by the PV cells in a solar panel when the sun shines on it. By generating electrical charges that move in reaction to an internal electrical field within the cell, this energy generates electrical currents that allow electricity to flow.

Therefore, sunlight is the energy source causes the solar panel to generate electrical energy.

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The highest pressure is found in the depths of the ocean and the lowest pressure can be found in the Earth's atmosphere at high altitudes, such as in a vacuum.

Pressure is a measure of the force exerted by a fluid per unit area and it can vary greatly depending on the environment. The highest pressure is found in the depths of the ocean, where the pressure from the weight of the water column above increases with depth.

On the other hand, the lowest pressure can be found in the Earth's atmosphere at high altitudes, such as in a vacuum. A vacuum is a region with no matter, and thus no pressure, and is often found in outer space.

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If two rockets are fired simultaneously from a ledge at a height of ℎ and if we neglect the air resistance and assumed rockets are particles both of them hit the ground at the same time due to projectile motion as it only depends upon gravitational force.

This kind of motion is known as projectile motion. Projectile motion is the motion of any object or particle thrown in to the air or projected in to the air. Except the initial force by which it is projected the only force the particle experiences is the gravity which is constant. Here the object or particle projected or thrown is known as projectile and the path it follows is known as trajectory. The formula of time in projectile motion is T=2vsinθ/g. here time only depends upon gravitational force if both particles are projected at the same speed. there are three types of projectile motion.

1. Vertical projectile motion

2. Horizontal projectile motion

3. Oblique projectile motion

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The rotation speed at a given latitude is determined by the radius of the Earth at that latitude and the rotational velocity of the Earth. The spinning velocity of the Earth.

is around 1670 kilometers per hour (466 meters per second) at the equator and zero at the poles. The radius at 30° latitude is about equal to the average radius of the Earth multiplied by the cosine of the latitude. As a result, at 30° latitude,The rotation speed at a given latitude is determined by the radius of the Earth at that latitude and the rotational velocity of the Earth. The spinning velocity of the Earth. the rotation speed may be approximated as follows: v = * r where: = rotating velocity of the Earth (466 m/s) r = radius at 30° latitude (R * cos(30°)). We may calculate the rotation speed for a person at latitude 30° by inserting the numbers.

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When studying personality development, both individual differences and individual similarities play an important role. However, the relative importance of these two aspects is a matter of debate among researchers. Some argue that it is more important to focus on individual differences, while others believe that individual similarities should be given more weight.

Individual differences refer to the ways in which people are unique from one another. Researchers who focus on individual differences study the various personality traits, habits, and behaviors that make each person unique. This approach has the advantage of allowing researchers to better understand the complexities of individual personality and behavior. By exploring the specific differences between people, researchers can gain insights into the ways in which personality develops and evolves over time.

On the other hand, researchers who focus on individual similarities aim to identify common patterns and traits that exist across a large population. This approach has the advantage of allowing researchers to identify broad trends and general principles that can be applied to a large number of individuals. By focusing on the similarities between people, researchers can gain a better understanding of the underlying causes of personality development and the common processes that occur.

In conclusion, both individual differences and individual similarities are important to consider when studying personality development. Ultimately, the choice of which aspect to focus on depends on the specific goals and objectives of the research project. By exploring both individual differences and individual similarities, researchers can gain a more comprehensive understanding of personality development and the ways in which it influences behavior.

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Atmospheric pressure: The force exerted by air;  the pressure in the atmosphere. b: the pressure within a container caused by atmospheric gas compression The car tire's air pressure was measured in pounds per square inch.

The force exerted on a surface by the weight of air is defined as air pressure. The average sea-level air pressure of 101.325 kPA is an example of air pressure. noun.

The gravitational attraction of the planet on the atmospheric gases above the surface causes atmospheric pressure, which is a function of the planet's mass, the radius of the surface, the amount and composition of the gases, and their vertical distribution in the atmosphere.

The following are the examples:

blowing up a balloon.

Using the flush button on the toilet.

Wind instruments are musical instruments.

To water the plants, use a sprinkler hose.

Air pressure is required for bicycles, automobiles, and other vehicles.

I'm having a shower.

The air pressure keeps the body shape.

Changes in atmospheric pressure cause climatic changes.

Therefore, we can say that Fountain bottle, ping pong funnel as well as million dollar bet are examples of atmospheric pressure.

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Forecasting involves making predictions about the future. Forecasts are often predicated on historical data.

Because the future is uncertain, forecasts must often be revised, and actual results can vary greatly. Making future forecasts is a part of forecasting.

Companies utilize forecasting in finance to predict earnings or other statistics for upcoming periods. Forecasts are used by traders and analysts in value models, to time trades, and to spot trends.

Historical data is frequently the foundation of forecasts. Forecasts frequently need to be updated since the future is unpredictable, and actual outcomes can differ substantially.

Therefore, Forecasting involves making predictions about the future. Forecasts are often predicated on historical data.

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The speed of the 200g ball before the collision was 9.0 m/s.

To find the speed of the 200g ball before the collision, we can use the conservation of momentum principle. The total momentum of the system before the collision is equal to the total momentum after the collision.

Momentum before = Momentum after

(200g) * v1 + (400g) * (-3.0 m/s) = (600g) * (-5.0 m/s)

Solving for v1:

v1 = (400g * 3.0 m/s + 600g * 5.0 m/s) / 200g

v1 = 9.0 m/s

So, the speed of the 200g ball before the collision was 9.0 m/s.

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Yes, when ever you add or subtract quantities they must have the same units or dimensions.

In physics measurements apart from units and units, there are also what are referred to as dimensions.

Definition dimensions in mathematics are measurements of length, width, or height that are extended in a certain direction. Where every form of matter on earth has dimensions, including physical quantities. Dimensions show what basic quantities are used in a measurement. Thus, dimensions in physics are a way of writing quantities that show the constituent quantities. Dimensions in measurements do not consider numerical values (quantities).

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If you want to increase the amplitude of her motion as quickly as possible, the time should you wait between pushes is 2.9 s.    

One whole cycle of a periodic motion is frequently described in terms of the time period, a fundamental concept in physics. It is the reciprocal of the motion's frequency.

Given:

Length, l = 2.1 m

The time period is given by:

T = 2π ( l /g )ˣ

Here, the value of x is 0.5, acceleration due to gravity (g).

Substitute the values:

T = 2 × 3.14 ( 2.1 ÷ 9.8 ) ˣ

T = 2.9 s  

Hence, if you want to increase the amplitude of her motion as quickly as possible, the time should you wait between pushes is 2.9 s.

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